man dfg2dfg (Commandes) - calculate approximations of problems

NAME

dfg2dfg - calculate approximations of problems

SYNOPSIS

dfg2dfg [-horn] [-monadic] [-linear] [-shallow] [infile] [outfile]

DESCRIPTION

dfg2dfg is a program that reads clauses from an input file in DFG syntax. It then calculates an approximation of the clause set depending on the command line options. Finally it writes the approximated clause set in DFG syntax to a file.

If neither infile nor outfile are given, dfg2dfg reads from standard input and writes to standard output. If one file name is given, it reads from that file and writes the output to standard output. If more than one file name is given, dfg2dfg reads from the first file and writes to the second.

The approximations are described in technical detail in the separate paper dfg2dfg.ps included in the SPASS distribution.

OPTIONS

dfg2dfg has four different command line options that may be combined. This option enables the transformation of non-horn clauses into horn clauses. Each non-horn clause with n positive literals is transformed into n horn clauses, where the i-th clause contains the i-th positive literal and all negative literals of the non-horn clause. See also section 3 of the paper. With this option atoms with non-monadic predicate symbols are transformed into monadic atoms. If n is omitted or n=1 a term encoding is applied, i.e., all non-monadic predicates are moved to the term level. With n=2 a projection is applied. All non-monadic atoms are replaced by their monadic argument projections. See section 4.1 section 4.2 of the paper for more details. This approximation transforms a clause with monadic literals and non-linear variable occurrences in succedent atoms, into a new clause with possibly more negative literals, that doesn't contain any non-linear variables in the succedent. See section 5 of the paper for details. This transformation tries to reduce the depth of the terms in positive literals. The transformation is applied to horn clauses with monadic literals only. If n is omitted or n=1 a strict transformation is applied, that is equivalence preserving, however. For n=2 some preconditions are removed. This allows the transformation to be applied more often, but the transformation isn't equivalence preserving any more. For n=3 even more preconditions are removed. Take a look at section 6.n of the paper for the details of the command line option -monadic=n.

SEE ALSO

AUTHORS

Enno Keen

Contact : Thomas Hillenbrand <hillen@mpi-sb.mpg.de>, Christoph Weidenbach <weidenb@mpi-sb.mpg.de>